I've found myself evaluating both of these libs. Apart from what the GraphicsMagick comparison says, I see that ImageMagick still got updates and it seems that the two are almost identical.

I'm just looking to do basic image manipulation in C++ (i.e. image load, filters, display); are there any differences I should be aware of when choosing between these libraries?


From what I have read GraphicsMagick is more stable and is faster. I did a couple of unscientific tests and found gm to be twice as fast as im (doing a resize).


I found ImageMagick to be incredibly slow for processing TIFF group-4 images (B&W document images), mainly due to the fact that it converts from 1-bit-per-pixel to 8 and back again to do any image manipulation. The GraphicsMagick group overhauled the TIFF format support with their version 1.2, and it is much faster at processing these types of images than the original ImageMagick was. The current GraphicsMagick stable release is at 1.3.5.


As with many things in life, different people have different ideas about what is best. If you ask a landscape photographer who wanders around in the rain in Scotland's mountains which is the best camera in the world, he's going to tell you a light-weight, weather-sealed camera. Ask a studio photographer, and he'll tell you the highest resolution one with the best flash sync speed. And if you ask a sports photographer he'll tell you the one with the fastest autofocus and highest frame rate. So it is with ImageMagick and GraphicsMagick.

Having answered around 2,000 StackOverflow questions on ImageMagick over the last 5+ years, I make the following observations...

In terms of popularity...

  • ImageMagick questions on SO outnumber GraphicsMagick questions by a factor of 12:1 (7,375 questions vs 611 at May 2019), and
  • ImageMagick followers on SO outnumber GraphicsMagick followers by 15:1 ((387 followers versus 25 at May 2019)

In terms of performance...

I am happy to concede that GraphicsMagick may be faster for some, but not all problems. However, if speed is your most important consideration, I think you should probably be using either libvips, or parallel code on today's multi-core CPUs or heavily SIMD-optimised (or GPU-optimised) libraries like OpenCV.

In terms of features and flexibility...

There is one very clear winner here - ImageMagick. My experience is that there are many features missing from GraphicsMagick which are present in ImageMagick and I list some of these below, in no particular order.

I freely admit I am not as familiar with GraphicsMagick as I am with ImageMagick, but I made my very best effort to find any mention of the features in the most recent GraphicsMagick source code. So, for Canny Edge Detector, I ran the following command on the GM source code:

find . -type f -exec grep -i Canny {} \;

and found nothing.

Canny Edge detector

This appears to be completely missing in GM. See -canny radiusxsigma{+lower-percent}{+upper-percent} in IM.

See example here and sample of edge-detection on Lena image:

enter image description here

Parenthesised processing, sophisticated re-sequencing

This is a killer feature of ImageMagick that I frequently sorely miss when having to use GM. IM can load, or create, or clone a whole series of images and apply different processing selectively to specific images and re-sequence, duplicate and re-order them very simply and conveniently. It is hard to convey the incredible flexibility this affords you in a short answer.

Imagine you want to do something fairly simple like load image A and blur it, load image B and make it greyscale and then place the images side-by-side with Image B on the left. That looks like this with ImageMagick:

magick imageA.png -blur x3 \( imageB.png -colorspace gray \) +swap +append result.png

enter image description here

You can't even get started with GM, it will complain about the parentheses. If you remove them, it will complain about swapping the image order. If you remove that it will apply the greyscale conversion to both images because it doesn't understand parentheses and place imageA on the left.

See the following sequencing commands in IM:

  • -swap
  • -clone
  • -duplicate
  • -delete
  • -insert
  • -reverse

fx DIY Image Processing Operator

IM has the -fx operator which allows you to create and experiment with incredibly sophisticated image processing. You can have function evaluated for every single pixel in an image. The function can be as complicated as you like (save it in a file if you want to) and use all mathematical operations, ternary-style if statements, references to pixels even in other images and their brightness or saturation and so on.

Here are a couple of examples:

magick rose: -channel G -fx 'sin(pi*i/w)' -separate   fx_sine_gradient.gif

enter image description here

magick -size 80x80 xc: -channel G -fx  'sin((i-w/2)*(j-h/2)/w)/2+.5' -separate fx_2d_gradient.gif

enter image description here

A StackOverflow answer that uses this feature to great effect in processing green-screen (chroma-keyed) images is here.

Fourier (frequency domain) Analysis

There appears to be no mention of forward or reverse Fourier Analysis in GM, nor the High Dynamic Range support (see later) that is typically required to support it. See -fft in IM.

Connected Component Analysis / Labelling/ Blob Analysis

There appears to be no "Connected Component Analysis" in GM - also known as "labelling" and "Blob Analysis". See -connected-components connectivity for 4- and 8-connected blob analysis.

This feature alone has provided 60+ answers - see here.

Hough Line Detection

There appears to be no Hough Line Detection in GM. See -hough-lines widthxheight{+threshold} in IM.

See description of the feature here and following example of detected lines:

enter image description here

Moments and Perceptual Hash (pHash)

There appears to be no support for image moments calculation (centroids and higher orders), nor Perceptual Hashing in GM. See -moments in IM.


There appears to be no support for Morphological processing in GM. In IM there is sophisticated support for:

  • dilation
  • erosion
  • morphological opening and closing
  • skeletonisation
  • distance morphology
  • top hat and bottom hat morphology
  • Hit and Miss morphology - line ends, line junctions, peaks, ridges, Convex Hulls etc

See all the sophisticated processing you can do with this great tutorial.

Contrast Limited Adaptive Histogram Equalisation - CLAHE

There appears to be no support for Contrast Limited Adaptive Histogram Equalisation in GM. See -clahe widthxheight{%}{+}number-bins{+}clip-limit{!} in IM.

HDRI - High Dynamic Range Imaging

There appears to be no support for High Dynamic Range Imaging in GM - just 8, 16, and 32-bit integer types.


ImageMagick supports many types of convolution:

  • Difference of Gaussians DoG
  • Laplacian
  • Sobel
  • Compass
  • Prewitt
  • Roberts
  • Frei-Chen

None of these are mentioned in the GM source code.

Magick Persistent Register (MPR)

This is an invaluable feature present in ImageMagick that allows you to write intermediate processing results to named chunks of memory during processing without the overhead of writing to disk. For example, you can prepare a texture or pattern and then tile it over an image, or prepare a mask and then alter it and apply it later in the same processing without going to disk.

Here's an example:

 magick tree.gif -flip -write mpr:tree +delete -size 64x64 tile:mpr:tree mpr_tile.gif

enter image description here

Broader Colourspace Support

IM supports the following colourspaces not found in GM:

  • CIELab
  • HCL
  • HSI
  • LMS
  • others.

Pango Support

IM supports Pango Text Markup Language which is similar to HTML and allows you to annotate images with text that changes:

  • font, colour, size, weight, italics
  • subscript, superscript, strike-through
  • justification

mid-sentence and much, much more. There is a great example here.

enter image description here

Shrink-on-load with JPEG

This invaluable feature allows the library to shrink JPEG images as they are read from disk, so that only the necessary coefficients are read, so the I/O is lessened, and the memory consumption is minimised. It can massively improve performance when down-scaling images.

See example here.

Defined maximum JPEG size when writing

IM supports the much-requested option to specify a maximum filesize when writing JPEG files, -define jpeg:extent=400KB for example.

Polar coordinate transforms

IM supports conversion between cartesian and polar coordinates, see -distort polar and -distort depolar.

Statistics and operations on customisable areas

With its -statistic MxN operator, ImageMagick can generate many useful kinds of statistics and effects. For example, you can set each pixel in an image to the gradient (difference between brightest and darkest) of its 5x3 neighbourhood:

magick image.png -statistic gradient 5x3 result.png

Or you can set each pixel to the median of its 1x200 neighbourhood:

magick image.png -statistic median 1x200 result.png

See example of application here.

enter image description here

Sequences of images

ImageMagick supports sequences of images, so if you have a set of very noisy images shot at high ISO, you can load up the entire sequence of images and, for example, take the median or average of all images to reduce noise. See the -evaluate-sequence operator. I do not mean the median in a surrounding neighbourhood in a single image, I mean by finding the median of all images at each pixel position.

The above is not an exhaustive list by any means, they are just the first few things that came to mind when I thought about the differences. I didn't even mention support for HEIC (Apple's format for iPhone images), increasingly common High Dynamic Range formats such as EXR, or any others. In fact, if you compare the file formats supported by the two products (gm convert -list format and magick identify -list format) you will find that IM supports 261 formats and GM supports 192.

As I said, different people have different opinions. Choose the one that you like and enjoy using it.

As always, I am indebted to Anthony Thyssen for his excellent insights and discourse on ImageMagick at https://www.imagemagick.org/Usage/ Thanks also to Fred Weinhaus for his examples.


I use ImageMagick when speed isn't a factor. However on the server side, where tens of thousands of images are being processed daily, GraphicsMagick is quite noticeably faster - in some cases up to 50% faster in benchmarks!



graphicsmagick was forked from imagemagick back in 2002 due to disputes between founding developers. thus they share the same codebase.

Ref : https://en.wikipedia.org/wiki/GraphicsMagick



  • focuses on simple, stable, and clearer codebase / architecture


  • focuses on rolling out new features, extend a wider toolbase

Other than speed, imagemagick adds a number of cli tools to terminal shell whereas graphicsmagick is a single tool which you can call.

CLI interface design


gm <command> <options> <file>


convert <options> <file>
compare <options> <file>

imho, i prefer (in fact, only use) graphicsmagick(gm) over imagemagick as the latter has higher chance of tool name clash, which causes lots of issues in finding out why certain tools are not running, especially during server side automation tasks. in summary graphicsmagick has much clearer design.

imagine a binary called convert in a project and is it imagemagick's convert or your own rolled tool in project that will be called?

list of imagemagick tools (including convert, compare, display) : https://imagemagick.org/script/command-line-tools.php

list of graphicsmagick commands : http://www.graphicsmagick.org/utilities.html

note : as of v7 as mentioned by Mark S, imagemagick is now distributed as single binary, and also supporting older v6 commands.


a simple memory consumption test can be found here : https://coderwall.com/p/1l7h-a/imagemagick-bloat-graphicsmagick


GraphicsMagick depends on 36 libraries whereas ImageMagick requires 64. Ref : http://www.graphicsmagick.org/1.3/FAQ.html

  • 3
    As of v7, ImageMagick is a single executable called magick so has little chance of name clash. It also has much, much better functionality than GraphicsMagick IMHO - specifically with respect to parenthesised expressions, cloning and general control. – Mark Setchell Apr 28 at 11:10
  • As of April 2019, I think it speaks volumes about popularity that there are 12 times more ImageMagick questions on StackOverflow than GraphicsMagick (7,375 questions vs 611) and 15 times as many people following the ImageMagick tag as the GraphicsMagick tag (387 followers versus 25). – Mark Setchell Apr 29 at 17:45
  • I fail to see the relevance of the number of dependencies and would argue that they are easily installed if you need them and are evidence of greater functionality and coverage. Further, if you are truly interested in performance, or indeed memory consumption, you should be looking at libvips ... github.com/jcupitt/libvips/wiki/Speed-and-memory-use – Mark Setchell Apr 29 at 17:48
  • 1
    I listened to your advice and added an answer with some of my observations. – Mark Setchell May 20 at 12:09
  • 1
    Just an observation - GraphicsMagick is apparently unable to "identify" a large PDF file I threw at it (~150MB, containing 28 scanned pages), giving up and claiming it ran out of disk space (despite no change in disk usage during the brief run). More mystifying is why it would even by "writing to file" when doing what should be a read-only operation! ImageMagick on the other hand, processed the image with no problem. – Michael Sep 24 at 16:30

GraphicsMagick was an early fork from Imagemagick. You can read about Imagemagick's history and the fork to GraphicsMagick at https://imagemagick.org/script/history.php. It seems that Imagemagick has continued to be developed rather extensively, while GraphicsMagick has remained more or less stagnant since the fork.


Note that GraphicsMagick provides API and ABI stability, which isn't part of the guarantee for ImageMagick. This would be important in the long run unless you are vendoring all your dependencies.

  • If you use ImageMagick correctly with its policy.xml file, it is secure. I cannot say if GraphicsMagick even has a policy.xml file to control security factors. Weak security was misrepresented for ImageMagick because users were not setting their policy.xml file. – fmw42 Nov 8 at 6:23
  • @fmw42 Are you replying to the wrong answer? How is ABI and API stability related to security? – Franklin Yu Nov 8 at 6:26
  • Sorry, I thought you were discussing security. I do not know what ABI and API stability mean. – fmw42 Nov 8 at 6:27
  • @fmw42 Ah ok. Imagine that I'm writing an application using one of ImageMagick libraries. API stability means that source code my application doesn't need to be modified when I upgrade ImageMagick (for example, from 6.8 to 6.9), but I may still need to compile it again. ABI stability is stricter; it means that I don't even need to compile my application; I just need to swap the GraphicsMagick library binary to update. I recently came across ABI stability issue of ImageMagick. This won't affect Bash scripts since it's another interface. – Franklin Yu Nov 8 at 6:52
  • OK. Thanks for the explanation. Sorry, I totally misunderstood your comment. I do not use any APIs only the command line. So I have no understanding of your issues. You might post to the ImageMagick discourse server and ask the ImageMagick experts about those potential issues with ImageMagick. – fmw42 Nov 8 at 17:54

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